列车自动运行驱动功能体系结构评估

Ziyulong Wang , Egidio Quaglietta , Maarten G.P. Bartholomeus , Rob M.P. Goverde
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引用次数: 2

摘要

列车自动运行(ATO)在城市轨道交通中享有盛誉,目前为提高运力和准点率而受到干线铁路越来越多的关注。ATO的一个主要功能是生成列车轨道,根据时间表、列车和基础设施的特点,指定给定运行路线上的速度分布图。本文提出并评估了不同可能的ATO架构配置,通过分配智能组件在轨道侧或车载。分析的ATO架构配置集基于相关互联驾驶咨询系统(C-DAS)的文献中提出的最先进的架构。SWOT分析结果表明,不同的ATO配置具有不同的优势或局限性,这取决于铁路治理类型和现有铁路信号和通信设备的技术发展。此外,我们还使用这些结果来强调由欧盟铁路管理局(ERA)正在开发的拟议的ATO-over-ETCS架构的操作、技术和商业优势/局限性,并为其提供科学论证。
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Assessment of architectures for Automatic Train Operation driving functions

Automatic Train Operation (ATO) is well-known in urban railways and gets increasing interest from mainline railways at present to improve capacity and punctuality. A main function of ATO is the train trajectory generation that specifies the speed profile over the given running route considering the timetable and the characteristics of the train and infrastructure. This paper proposes and assesses different possible ATO architecture configurations through allocating the intelligent components on the trackside or onboard. The set of analyzed ATO architecture configurations is based on state-of-the-art architectures proposed in the literature for the related Connected Driver Advisory System (C-DAS). Results of the SWOT analysis highlight that different ATO configurations have diverse advantages or limitations, depending on the type of railway governance and the technological development of the existing railway signaling and communication equipment. In addition, we also use the results to spotlight operational, technological, and business advantages/limitations of the proposed ATO-over-ETCS architecture that is being developed by the European Union Agency for Railways (ERA) and provide a scientific argumentation for it.

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来源期刊
CiteScore
7.10
自引率
8.10%
发文量
41
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